Light string package structure

ABSTRACT

A lighting structure including a light-transmitting cap, a wire, a light emitting diode (LED) and a transparent adhesive. Two guide pieces project in parallel and protrude from the bottom of a body of the light-transmitting cap, and an opening of the body is located between the two guide pieces. Two lugs extend from the body, and correspond to two ends of a guide trench between the two guide pieces. A soldering surface of the LED is soldered on a soldering section of the wire. The transparent adhesive wraps around the soldering section, the guide trench and the two lugs, and wraps around a light emitting surface of the LED. The light-transmitting cap covers the LED with the LED at the opening. The soldering section is located between the two guide pieces, and the transparent adhesive attaches the LED to the light-transmitting cap.

RELATED APPLICATIONS

The present application is a continuation of U.S. patent application Ser. No. 16/751,064, filed Jan. 23, 2020, which claims priority to Chinese Patent Application No. 201910924211.7, filed on Sep. 27, 2019, all of which are incorporated herein by reference in their entireties.

FIELD OF THE INVENTION

This disclosure relates to a light string, and more particularly relates to a light string package structure.

BACKGROUND

A known light string is a configuration wherein a plurality of light sources are directly soldered on a wire in a spaced manner to form a string-shaped illumination device without a lamp holder in the art. For small light sources, such as bulbs and light emitting diodes (LEDs), it is a frequently used configuration. The light string may be easily configured into any form due to the maintenance of an original winding characteristic of the wire, so as to be suitable for special lighting needs or decorations.

In the art, the LED is directly soldered onto a wire after an insulating layer of the wire is directly removed. The electrode of the light emitting diode is directly soldered on an exposed metal core, and then solder joints are subjected to an insulating process. In the case where a light-transmitting cap is provided, the light-transmitting cap is fixed on a light source in an adhering manner. When the light string is bent considerably, a soldered portion will be also bent sharply. However, the solder usually lacks flexible or bendable properties, so that when the wire is bent significantly, the soldering joint easily fails, which makes the LED fail to emit light.

SUMMARY

In view of the above problem, this disclosure provides a light string package structure, so as to solve problems in the prior art.

This disclosure provides a light string package structure, including a light-transmitting cap, a wire, a light emitting diode and a transparent encapsulating or adhering substance such as an adhesive, epoxy or glue. In an embodiment, the light-transmitting cap includes a body, two guide pieces and two lugs. The interior of the body is hollow, and an opening is formed in the bottom surface of the body to communicate with the interior of the body. The two guide pieces are in parallel and protrude from the bottom of the body. A guide trench is defined between the two guide pieces, and the opening is located between the two guide pieces. The wire has a soldering section with an exposed metal core. The two lugs inversely extend outward from the edge of the bottom of the body, and correspond to two ends of the guide trench. The light emitting diode has a light emitting surface and a soldering surface. The soldering surface is soldered onto the soldering section, and the soldering section is flatly attached to the soldering surface. The transparent glue covers the soldering section to adhere the soldering section to the guide trench and the two lugs, and extends around to wrap the light emitting surface of the light emitting diode. The light-transmitting cap covers the light emitting diode, so that the light emitting diode is located at the opening, and the light emitting surface faces the interior of the body. The soldering section is located between the two guide pieces, and the transparent glue attaches the light emitting diode to the light-transmitting cap.

In one or more embodiments, other portions of the wire are covered by an insulating layer.

In one or more embodiments, the insulating layer is a plastic layer or insulating paint coating layer.

In one or more embodiments, a distance between two ends of the two lugs is equal to or greater than a length of the soldering section.

In one or more embodiments, the transparent glue attaches the soldering section to the two guide pieces and the edge of the opening.

In one or more embodiments, the transparent glue is an ultraviolet-curable adhesive.

By adopting the light string package structure, in addition to providing an optical effect through the light-transmitting cap, the fixing of the soldering section can be reinforced, thereby avoiding a soldering failure of the light emitting diode due to excessive bending of the soldering section in a use process of a light string.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a three-dimensional exploded diagram of an embodiment of this disclosure;

FIG. 2 is a three-dimensional diagram of an embodiment of this disclosure;

FIG. 3 is a cross-sectional schematic diagram of an embodiment of this disclosure;

FIG. 4 is a three-dimensional exploded diagram of another embodiment of this disclosure;

FIG. 5 is a three-dimensional diagram of another embodiment of this disclosure;

FIG. 6 and FIG. 7 are cross-sectional schematic diagrams of an embodiment of this disclosure, illustrating a processing method of a light string package structure;

FIG. 8 and FIG. 9 are three-dimensional diagrams of different application cases of this disclosure;

FIG. 10 is a cross-sectional exploded diagram of different application cases of this disclosure; and

FIG. 11 to FIG. 13 are cross-sectional exploded diagrams of different application cases of this disclosure.

DETAILED DESCRIPTION

Referring to FIG. 1, FIG. 2 and FIG. 3, a light string package assembly or lighting structure 100 disclosed by an embodiment of this disclosure is illustrated, and is used as one portion of a light string. The light string package structure 100 includes a light-transmitting cap 110, one or more wires 120, a light emitting diode 130 (LED 130) and a transparent adhesive 140.

As shown in FIG. 1, FIG. 2 and FIG. 3, the light-transmitting cap 110 is made of a light-transmitting material that may be transparent and colorless, or may be in any color to provide illuminating light in different colors. The light-transmitting cap 110 includes a body 112 and two guide pieces 114. The top of the body 112 may be in a lens form, and is used for refracting light to form a light condensation or scattering effect. The interior of the body 112 is hollow, and an opening 112 a is formed in the bottom surface of the body 112 to communicate with the interior of the body 112.

As shown in FIG. 1, FIG. 2 and FIG. 3, the number of wires 120 may be in any quantity, and the quantity is determined according to an electric connection mode of the LED 130. In case of a series circuit, there may be only one wire 120, and two ends of the wire 120 are respectively connected to a power source and the ground. In case of a parallel circuit, there may be two wires 120: a power wire for supplying power and a ground wire. However, other electrical connection modes are not excluded. For example, when a programmable-controlled LED 130 is used, there will be a third wire 120 serving as a transmission line of a control signal. FIG. 1, FIG. 2 and FIG. 3 depict a 3-wire embodiment.

As shown in FIG. 1, FIG. 2 and FIG. 3, each wire 120 includes a conductor portion 121 and an insulating layer 123. Each conductor portion of each wire 120 has a soldering section 122 with an exposed metal core or conductor portion, and other conductor portions that are wrapped by the insulating layer such as a plastic layer or insulating paint-coating layer. That is, the wire 120 may be a plastic-covered wire, e.g., PVC-covered wire, or an enameled wire. When there are two or more wires 120 and the wires 120 are plastic-covered wires, the plurality of wires 120 may be connected side by side (parallel) via the plastic insulating layers to form a single wire assembly 120.

As shown in FIG. 1, FIG. 2 and FIG. 3, the LED 130 has a light emitting surface 132 and a soldering surface 134. A soldering pad is arranged on the soldering surface 134, and is used for soldering the LED 130 onto the soldering sections 122 of the wires 120, and the soldering surface 134 faces the wires 120.

As shown in FIG. 1, FIG. 2 and FIG. 3, a guide trench 114 a is defined between the two guide pieces 114. The transparent adhesive 140 encapsulates or wraps around the soldering sections 122 of the wires 120 to affix the soldering sections 122 to the guide trench 114 a and two lugs or flanges 116 of the light-transmitting cap 110, and extends to wrap around the light emitting surface 132 of the LED 130. The light-transmitting cap 110 covers the LED 130, so that the LED 130 is located at the opening 112 a, and the light emitting surface 132 faces the interior of the body 112. Meanwhile, the transparent adhesive 140 attaches the LED 130 and the soldering sections 122 to the light-transmitting cap 110, so as to fix the light-transmitting cap 110 to the wires 120.

As shown in FIG. 1, FIG. 2 and FIG. 3, the two guide pieces 114 of the light-transmitting cap 110 are arranged in parallel and protrude from the bottom of the body 112, and the guide trench 114 a is defined between the two guide pieces 114. The opening 112 a is located between the two guide pieces 114, that is, the opening 112 a is located in the guide trench 114 a. The body 112 further includes a flange that includes two lugs 116 that inversely extend outward from the edge of the bottom of the body 112, and the two lugs 116 correspond to two ends of the guide trench 114 a. In an embodiment, a distance between two ends of the two lugs 116 must be equal to or greater than a length of the soldering sections 122, so that the two lugs 116 may cover the whole soldering sections 122 to allow the transparent adhesive 140 to affix the soldering sections 122 and the wires 120 to the lugs 116.

The soldering sections 122 of the aforementioned wires 120 are located between the two guide pieces 114, and the transparent adhesive 140 may appropriately flow into the opening 112 a and wrap around or contact the LED 130 to attach the soldering sections 122 of the wires 120 to the two guide pieces 114 and the edge of the opening 112 a. The transparent adhesive 140 may use an adhesive or glue bulk with a curing function, such as an ultraviolet-curable adhesive that may be cured by ultraviolet radiation. Finally, the transparent adhesive 140 may exert a fixing or adhesive effect after being cured.

As shown in FIG. 1, FIG. 2 and FIG. 3, the two guide pieces 114 and the transparent adhesive 140 may achieve a movement-restricting effect on the soldering sections 122 in a horizontal direction, so as to avoid a soldering failure of the LED 130 due to bending of the soldering sections 122 in the horizontal direction. The two lugs 116 may achieve a movement-restricting effect on the soldering sections 122 in a vertical direction, so as to avoid the soldering failure of the LED 130 due to bending of the soldering sections 122 in the vertical direction.

As shown in FIG. 4 and FIG. 5, a light string package structure 100 disclosed by another embodiment of this disclosure is illustrated. As shown in the figure, the thickness and width of two lugs 116 may vary, as long as a distance between two ends of the two lugs 116 is equal to or greater than a length of a soldering section 122 to allow the two lugs 116 to cover the whole soldering section 122.

As shown in FIG. 6, FIG. 7 and FIG. 8, an assembling method of a light string package structure 100 of this disclosure is illustrated.

As shown in FIG. 6, firstly, one or more wires 120 are prepared, and portions of insulating layers 123 such as plastic layers or insulating paint coating layer are removed by means of stripping, burning or grinding, cutting under tension, and so on, so as to form soldering sections 122. Secondly, a soldering surface 134 of a LED 130 is soldered to the soldering sections 122, the soldering sections 122 are flatly attached to the soldering surface 134, and a light emitting surface 132 faces a direction away from the soldering sections 122.

As shown in FIG. 7, an opening 112 a of a body 112 is aligned with the LED 130, and the bottom of the body 112 covers the LED 130, so that the LED 130 is located at the opening 112 a, and the light emitting surface 132 faces the interior of the body 112. Meanwhile, the wires 120 are located between two guide pieces 114.

As shown in FIG. 7, a transparent adhesive 140 is coated on a guide trench 114 a and two lugs 116 so as to wrap the whole soldering sections 122. Furthermore, the transparent adhesive 140 may appropriately overflow to be attached between the edge of the opening 112 a and the LED 130, between the soldering sections 122 and the two guide pieces 114, as well as between the soldering sections 122 and the bottom of the body 112.

As shown in FIG. 8, finally, the transparent adhesive 140 is cured. For example, an ultraviolet-curable adhesive is irradiated by ultraviolet radiation to complete the light string package structure 100. A plurality of soldering sections 122, LEDs 130 and light-transmitting caps are continuously disposed on the wires 120 to form a light string. The aforementioned procedure of disposing the plurality of soldering sections 122, LEDs 130 and light-transmitting caps may be a one-by-one arrangement or batch operation. For example, the soldering sections 122 are produced in batches, the LEDs 130 are soldered in batches, the light-transmitting caps are arranged in a coverage manner in batches, and gluing and curing are performed in batches.

As shown in FIG. 8 and FIG. 9, in the first and second embodiments of this disclosure, the quantity of the wires 120 is not limited, that is, there may be two, three, four or an any quantity of wires, as long as the soldering sections 122 are located between the two guide pieces 114, and the transparent adhesive 140 attaches the LED 130 to the light-transmitting cap 110.

As shown in FIG. 10 and FIG. 11, in the first and second embodiments of this disclosure, the light string package structure 100 may further include a light guide 150. The light guide 150 is received into the body 112 through the opening 112 a, and has one end facing the LED 130 to receive light and one end extending towards the front end of the body 112. The transparent adhesive 140 may appropriately overflow to be attached between the light guide strip 150 and the body 112 to fix the light guide strip 150.

As shown in FIG. 12, when the LED 130 emits light, the light may be guided by the light guide 150 and uniformly emitted from the body 112 via the light guide 150, such that light emissions are concentrated at the opening 112 a.

Referring to FIG. 13, the light guide 150 may be a cone or a cylinder, or may comprise columns with other cross section forms, as long as one end of the light guide 150 faces the LED 130 to receive the light, and the other end of the light guide strip 150 extends towards the front end of the body 112. In an embodiment, light guide 150 is a substantially solid structure, though in other embodiments, light 150 may include hollow portions to achieve a transmissive lighting effect that differs from a solid-material light guide.

By adopting the light string package structure 100, in addition to providing an optical effect through the light-transmitting cap, the fixing of the soldering sections 122 can be reinforced, thereby avoiding the soldering failure of the LED 130 due to the excessive bending of the soldering sections 122 in a use process of a light string. 

What is claimed is:
 1. A light string, comprising: a first wire extending along a lengthwise axis; a second wire extending parallel to the first; a plurality of light emitting diodes (LEDs); a plurality of light-transmitting caps adjacent to the LEDs. 